The prostaglandin D₂ receptor 1 (DP₁), a G protein-coupled receptor encoded by the PTGDR gene (also termed PTGDR1), is primarily a receptor for prostaglandin D₂ (PGD₂). The receptor is a member of the prostaglandin receptors belonging to the subfamily A14 of rhodopsin-like receptors. Activation of DP₁ by PGD₂ or other cognate receptor ligands is associated with a variety of physiological and pathological responses in animal models.

The PTGDR gene is located on chromosome 14 at position q22.1, (i.e. 14q22.1), a chromosomal locus associated with asthma and other allergic disorders. PTGDR, which consists of 4 introns and 5 exons, encodes for a ~44 kilodalton protein but also multiple alternative spliced transcript variants.

DP₁ is expressed primarily by cells involved in mediating allergic and inflammatory reactions, i.e. human and rodent mast cells, basophils, and eosinophils, Th2 cells, and dendritic cells, and by cells contributing to these reactions, i.e. human and/or rodent airway epithelial cells, vascular endothelium, mucus-secreting goblet cells in the nasal and colonic mucosa, and serous gland cells of the nose. DP₁ protein is expressed in mouse placenta and testes and mRNA transcripts have also been detected in the meninges of the mouse brain by multiple reports and, by single reports, in the rat meninges as well as the mouse thalamus, hippocampus, cerebellum, brainstem, and retina.

PGD₂ binds to and activates DP₁ at concentrations in the 0.5 to 1 nanomolar range. Relative potencies in binding to and activating DP₁ for the following prostanoids are: PGD₂>>PGE₂>prostaglandin F_2α>PGI₂=thromboxane A2, with PGD₂ being more than 100-fold more potent than PGE₂ in binding to and stimulating DP₁. PDJ2, Δ12-PDJ2, and 15-deoxy-Δ12,14-PGJ2, which form in vitro and in vivo rapidly as non-enzymatic rearrangements of PGD₂ (see cyclopentenone prostaglandins), also bind to and activate DP₁, with PDJ2 doing so almost as effectively as PDG2 and the latter two PGJs doing so 100-fold and 300-fold less potently than PDG2. Other compounds, e.g. L-644,698, BW 245C, BW A868C, and ZK 110841, have been synthesized, found to be about as potent as PGD₂ in binding to and stimulating DP₁, and used to study the function of this receptor.

The drug treprostinil is a high affinity ligand for and potent activator of not only DP₁ but also two other prostanoid receptors, EP₂ and IP.

Asapiprant (S-555739) and laropiprant are selective receptor antagonists of DP₁ whereas vidupiprant is a receptor antagonist for both DP₁ and DP₂.

Among the 8 human prostanoid receptors, DP₁, along with IP, EP₂, and EP₄, are classified as relaxant prostanoid receptors; each, including DP₁, is a G protein-coupled receptors that works by activating G-S proteins which in turn raises cellular cAMP levels thereby mobilizing cyclic adenosine monophosphate-activated cell signaling pathways which regulate cell function. DP₁ activation also causes the mobilization of calcium in HEK293 cells transfected with this receptor. It does so by a mechanism that is independent of inositol trisphosphate signaling; Ligand-activated DP₁ also mobilizes G protein-coupled receptor kinase 2 (GRK2, also known as β-adrenergic receptor kinase 2 [BARK1]) and arrestin 2 (also known as arrestin beta 1 [ARRB1]). These agents act to uncouple DP₁ from its G proteins and to internalize in a process that limits the DP₁'s cell-activation life-time in a process termed homologous desensitization. Activation of protein kinase Cs likewise trigger DP₁ to uncouple from G proteins and internalize although in model studies DP₁ has not been shown to cause the activation of PKC (see Protein kinase C#Function).

Studies in mouse as well as human tissues and cells find that DP₁ stimulation has numerous pro-allergic effects. DP₁ activation blocks the production of interleukin 12 by dendritic cells; this biases the development of naïve T lymphocytes to Th-2 rather than Th-1 helper cells and thereby promotes allergic rather than non-allergic inflammatory responses (see T helper cell#Th1/Th2 Model for helper T cells and T helper cell#Limitations to the Th1/Th2 model. DH1 activation also promotes allergic reactions by suppressing the function of natural killer cells, prolonging the survival of eosinophils, and stimulation the maturation of dermal mast cell.